Abstract

Passenger cars are an important source of air pollution, especially in urban areas. Recently, real-driving emissions (RDE) test procedures have been introduced in the EU aiming to evaluate nitrogen oxides (NOx) and particulate number (PN) emissions from passenger cars during on-road operation. Although RDE accounts for a large variety of real-world driving, it excludes certain driving situations by setting boundary conditions (e.g., in relation to altitude, temperature or dynamic driving).The present work investigates the on-road emissions of NOx, NO2, CO, particle number (PN) and CO2 from a fleet of 19 Euro 6b, 6c and 6d-TEMP vehicles, including diesel, gasoline (GDI and PFI) and compressed natural gas (CNG) vehicles. The vehicles were tested under different on-road driving conditions outside boundaries. These included ‘baseline’ tests, but also testing conditions beyond the RDE boundary conditions to investigate the performance of the emissions control devices in demanding situations.Consistently low average emission rates of PN and CO were measured from all diesel vehicles tested under most conditions. Moreover, the tested Euro 6d-TEMP and Euro 6c diesel vehicles met the NOx emission limits applicable to Euro 6d-TEMP diesel vehicles during RDE tests (168 mg/km). The Euro 6b GDI vehicle equipped with a gasoline particulate filter (GPF) presented PN emissions < 6 × 1011 #/km. These results, in contrast with previous on-road measurements from earlier Euro 6 vehicles, indicate more efficient emission control technologies are currently being used in diesel and gasoline vehicles.At the same time, the results suggest that particular attention should be given to CO and PN emissions of certain types of vehicles when driven under dynamic conditions, and possibly additional work is necessary. In particular, the emissions of CO (measured in this study during the regulated RDE test, but without an emission limit associated to it) or PN from PFI vehicles (presently not covered by the Euro 6 standard) showed elevated results in some occasions. Emissions of CO were up to 7.5 times higher when the more dynamic tests were conducted and the highest PN emissions were measured from a PFI gasoline vehicle during dynamic driving. Although based on a limited sample of cars, our work points to the relevance of a technology- and fuel-neutral approach to vehicle emission standards, whereby all vehicles must comply with the same emission limits for all pollutants.

Highlights

  • Poor air quality is an important environmental health hazard, resulting in health problems for the population and high costs for health care systems (European Environmental Agency, 2018)

  • More than 95% of the European population living in urban areas is exposed to ambient air concentration levels of particle matter (PM), nitrogen oxides (NOx) or O3 that are deemed unsafe by the World Health Organization (WHO) (European Environmental Agency, 2018)

  • Median NOx emissions from gasoline vehicles ranged from 16 mg/ km during the City-Motorway test to 21 and 24 mg/km during the real-driving emissions (RDE) and dynamic tests, respectively

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Summary

Introduction

Poor air quality is an important environmental health hazard, resulting in health problems for the population and high costs for health care systems (European Environmental Agency, 2018). In order to narrow the gap between laboratory emissions and real world emissions, the World harmonized light-duty test procedure (WLTP) and the RDE test procedures—the latter using Portable Emissions Measurement Systems (PEMS) have been recently introduced in the EU (EU 1151/2017) These tests were devised to be more representative of real-world driving conditions than NEDC. The obtained emission factor will allow updating current vehicle emissions inventories and provides real world emissions of pollutants that are not included in on-road regulation at the moment (CO and PN from PFI). It presents the first results of vehicles type-approved under the most stringent emission standards at the moment (Euro 6d-TEMP) investigated under different real-world driving situations

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